Refractive Optical Design Systems • Many different types of systems used • Want to look at each from the following • Field of View • Performance Requirements • F# • Packaging requirements • Spectral Range

Single Element • Poor image quality • Very small field of view • Chromatic Aberrations – only use a high f# • However fine for some applications eg Laser with single line • Where just want a spot, not a full field of view

Landscape Lens • Single lens but with stop added • i.e restriction on lens separate from the lens • Lens is “bent” around the stop • Reduces angle of incidence – thus off axis aberrations • Aperture either in front or back • Simple cameras use this

Achromatic Doublet • Brings red and blue into same focus • Green usually slightly defocused • Chromatic blur 25 less than singlet (for f#=5 lens) • Cemented achromatic doublet poor at low f# • Slight improvement if add space between lens • Removes 5th order spherical

Cooke Triplet Anastigmats • Three element lens which limits angle of incidence • Good performance for many applications • Designed in England by Taylor at “Cooke & Son” in 1893 • Created a photo revolution: simple elegant high quality lens • Gave sharp margins and detail in shadows • Lens 2 is negative & smaller than 1 & 3 positives • Have control of 6 radii & 2 spaces • Allows balancing of 7 primary aberrations 1. Spherical 2. Coma 3. Astigmatism 4. Axial colour 5. Lateral colour 6. Distortion 7. Field curvature • Also control of • However tradeoffs eg f#:6 has 10o field of view & good quality • F#:1.4 has 30o field of view but poor quality

Zeiss Tessar • Derived from Cooke by Paul Rudolph at Zeiss Jena in 1902 • Replaced back lens with doublet (tessares or 4 in Greek) • Gets higher resolution, excellent contrast, very low distortion • Want to eliminate aberrations when they occur • “Clip at the bud” • Lens 1 focuses light from infinity • Lens 2 (diverging) diverts converging light to lens 3 as diverging • Lens 3 takes diverging rays and focuses then & sets f# • Lens 3 makes most changes, creates most aberrations • Thus replace with doublet • Enhanced by special low glass developed by Zeiss • Leica famous 50 mm f3.5 Elmar lens of 1920 was a Tessar

Doublet Gauss or Biotar • Split optical power to minimize aberrations • Negative element with smaller diameter for field curve correction • For and aft spots minimize angle of incidence • Doublet Gauss adds for & aft negative lens: more stops • 2 positives at either end • Symmetric pattern around stops • Very good for high speed lenses: eg. f#:1.4 • Basis for most fix focal length high end camera lenses

Petzval Lens • Very old lens – designed by in 1840 • Petzval was the founder of geometric • Targets smaller fields of view and moderate f# >= 3.5 • 2 separate doublets with aperture stop in between • Lower chromatic aberrations than one doublet • Still used in aerial cameras

Telephoto • Add negative lens to doublet • Acts like Galilean telescope

Wide Angle • Add 3 strong negative front element • Bring light in from a wide angle – make objects seem more distant • Then converging group with small field of view